Summary
Also known as
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Model type
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Modular
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Model part of larger framework
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Note on status model
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Date note status model
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Technical specs
Supported platforms
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Linux
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Other platform
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Programming language
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Fortran77, Fortran90
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Other program language
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Code optimized
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Multiple processors implemented
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Nr of distributed processors
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Nr of shared processors
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Start year development
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1993
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Does model development still take place?
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Yes
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If above answer is no, provide end year model development
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Code development status
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When did you indicate the 'code development status'?
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Model availability
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As code
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Source code availability (Or provide future intension)
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Through owner"Through owner" is not in the list (Through web repository, Through CSDMS repository) of allowed values for the "Source code availability" property.
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Source web address
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Source csdms web address
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Program license type
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Other
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Program license type other
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--
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Memory requirements
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A few Gb
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Typical run time
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A few days for annual runs
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In/Output
Describe input parameters
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wind, air temperature, humidity, pressure, solar and infrared radiation. Oceanic fields from OGCM for initial and boundary conditions
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Input format
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Binary
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Other input format
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Describe output parameters
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temperature, salinity, current 3D fields. Air/sea fluxes
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Output format
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Binary
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Other output format
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NetCDF
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Pre-processing software needed?
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No
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Describe pre-processing software
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Post-processing software needed?
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No
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Describe post-processing software
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Visualization software needed?
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Yes
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If above answer is yes
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Other visualization software
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software developed by the group. Can also be processed by the ROMS tools via Matlab
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Process
Describe processes represented by the model
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Free surface, generalized s coordinate model. Classical representation of oceanic processes (tides, wind circulation, density driven circulation ...). Coupling with sediment transport and biogeochemistry
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Describe key physical parameters and equations
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Primitive equations.Non hydrostatic version available.
Sediment transport : cohesive (Partheniades) and non cohesive (Smith and Mac Lean). Biogeochemistry : cycle of C,N,P,Si
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Describe length scale and resolution constraints
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--
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Describe time scale and resolution constraints
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CFL criterium
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Describe any numerical limitations and issues
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--
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Testing
Describe available calibration data sets
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[[Describe available calibration data::Validation was done using several fields experiment (see publications on http://poc.obs-mip.fr/pages/research_topics/modelling/symphonie/symphonie.htm#publi)]]
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Upload calibration data sets if available:
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Describe available test data sets
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For example : Test of the non-hydrostatic version with water tank experiments.
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Upload test data sets if available:
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Describe ideal data for testing
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--
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Other
Do you have current or future plans for collaborating with other researchers?
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we have collaborations with people from the field and modellers which use our model
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Is there a manual available?
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Yes
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Upload manual if available:
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Model website if any
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Model forum / discussion board
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Symphonie
Introduction
History
Papers
Symphonie Questionnaire
Contact Information
Model:
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Symphonie
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Contact person:
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Patrick Marsaleix
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Institute:
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Laboratoire d'Aérologie
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City:
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Toulouse
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Country:
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France
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Email:
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patrick.marsaleix@aero.obs-mip.fr
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2nd person involved:
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--
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3rd person involved:
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--
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Model description
Model type:
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Modular model for the marine domain.
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Description:
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--
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Technical information
Supported platforms:
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Linux
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Programming language:
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Fortran77 & 90
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Model was developed started from:
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1993 and development still takes place
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To what degree will the model become available:
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As code
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Current license type:
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--
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Memory requirements:
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A few Gb
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Typical run time:
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A few days for annual runs
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Input / Output description
Input parameters:
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wind, air temperature, humidity, pressure, solar and infrared radiation. Oceanic fields from OGCM for initial and boundary conditions
|
Input format:
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Binary
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Output parameters:
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temperature, salinity, current 3D fields. Air/sea fluxes
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Output format:
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Binary, NetCDF
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Post-processing software (if needed):
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no
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Visualization software (if needed):
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yes, software developed by the group. Can also be processed by the ROMS tools via Matlab
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Process description
Processes represented by model:
|
Free surface, generalized s coordinate model. Classical representation of oceanic processes (tides, wind circulation, density driven circulation ...). Coupling with sediment transport and biogeochemistry
|
Key physical parameters & equations:
|
Primitive equations.Non hydrostatic version available.
Sediment transport : cohesive (Partheniades) and non cohesive (Smith and Mac Lean). Biogeochemistry : cycle of C,N,P,Si
|
Length scale & resolution constraints:
|
--
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Time scale & resolution constraints:
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CFL criterium
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Numerical limitations and issues :
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--
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Testing
User groups
Currently or plans for collaborating with:
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we have collaborations with people from the field and modellers which use our model
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Documentation
Key papers of the model:
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Marsaleix P., Auclair F., Floor J. W., Herrmann M. J., Estournel C., Pairaud I., Ulses C., 2008. Energy conservation issues in sigma-coordinate free-surface ocean models. Ocean Modelling. 20, 61-89.
Marsaleix P., Auclair F., Estournel C., 2006, Considerations on Open Boundary Conditions for Regional and Coastal Ocean Models. Journal of Atmospheric and Oceanic Technology, 23,1604-1613
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Is there a manual available:
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yes
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Model website if any:
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--
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Issues
Help
Input Files
Output Files
Download
Source |